KR200492087Y1 - Water pressure tester - Google Patents

Abstract

The present invention relates to a water pressure tester, and is to make it easier to perform a water pressure test operation on a pipe pipe bent in a U shape.
The present invention for realizing this is provided on both sides of the support frame (A), the first and second fixing units (B, C) coupled to both ends of the pipe 1, respectively, and the first and second fixing units ( In the hydraulic tester including a water supply unit (D) for supplying high-pressure water to the interior of the piping pipe (1) fixed to B, C), the first and second fixing units (B, C) are the piping pipe ( The first and second fixing mechanisms 30 and 60 to which the ends of 1) are fixed are provided to face forward at the rear of the first and second fixing mechanisms 30 and 60, and the front and rear vibration driving means 42 and 72 are provided. And first and second connecting tabs 40 and 70 respectively connected to the ends of the pipes 1 which are moved back and forth by and fixed to the first and second fixing mechanisms 30 and 60; The water supply unit (D) includes a water supply pipe (82) connected to the first connection tab (40), a pressure pump (83) connected to the water supply pipe (82), and a drain pipe (84) connected to the second connection tab (70). And, an opening/closing valve 85 connected to the drain pipe 84; The drain pipe 84 is configured to be connected to a resistance generating means 87 to apply fluid resistance to the discharged water, and the resistance generating means 87 is a filter network 87d through which discharge water passes through the housing 87a. ), and the elastic spring 87e is connected to the inner wall surface of the housing 87a on both sides for elastic support of the filter network 87d.

Description

WATER PRESSURE TESTER

The present invention relates to a water pressure tester, and more particularly, to a water pressure tester having an improved structure for more easily performing a water pressure test of a pipe.

In general, a pipe pipe used in a heat exchanger is manufactured by bending a metal pipe in a U shape.

On the other hand, after the pipe pipe is bent, it is necessary to check whether a leak occurs by supplying high pressure water to the inside of the pipe pipe using a hydraulic pressure tester.

The hydraulic tester is provided with a coupling portion coupled to the end of the pipe, and a water supply portion connected to the coupling portion, after coupling the ends of the pipe to the coupling portion, the high pressure through the coupling portion into the interior of the pipe. By supplying water, it is configured to check whether a leak occurs in the pipe.

The structure and action of such a hydraulic tester is shown in detail in a number of preceding documents including Utility Model No. 20-2006-0000082 and Patent No. 10-1158401, and further detailed descriptions are omitted.

However, such a hydraulic tester is configured to be coupled to only one end of the pipe pipe, and in order to test the pipe pipe, a test must be performed in a state in which the other end of the pipe pipe is sealed, using a separately provided equipment or sealing means. As described above, it is very troublesome to separately seal both ends of the piping pipe.

In addition, in order to perform a leak test of the pipe pipe, when water is supplied into the pipe pipe, air must be completely discharged to the outside, and the conventional hydraulic tester is difficult to discharge the air inside the pipe pipe completely outside. There was.

Republic of Korea Patent Publication No. 2014-57771 (2014.05.14. Publication) Republic of Korea Patent Registration No. 1867223 (2018.06.05.Registration)

The present invention is proposed to improve the problems in the prior art described above, and improves the reliability of the water pressure test by providing a water pressure tester having an improved structure so that the water pressure test of the pipes forming a bent shape can be performed more effectively. There is a purpose to let it.

The present invention for achieving the above object is provided to be spaced apart from each other on both sides of the horizontally arranged support frame, the first and second fixing units coupled to both ends of the U-shaped bending pipe pipe, respectively, In the hydraulic tester comprising a water supply unit that is connected to the first and second fixing units to supply high-pressure water to the inside of the piping pipe fixed to the first and second fixing units, the first and second The fixing unit is provided on the first and second supports provided on the support frame, and the first and second fixing mechanisms provided on the first and second supports and the ends of the pipe pipe are fixed, and the first and second First and second connecting tabs provided to face the rear of the fixing mechanism and forward and backward by the forward and backward driving means to be connected to ends of the pipes fixed to the first and second fixing mechanisms, respectively; The water supply unit includes a water supply pipe connected to the first connection tab, a pressurized pump connected to the water supply pipe, a drain pipe connected to the second connection tab, and an on-off valve connected to the drain pipe; The drain pipe is configured with a resistance generating means for applying a fluid resistance to the discharged water, wherein the resistance generating means includes a filter network through which discharge water flows inside the housing, and on both sides for elastic support of the filter network It is characterized in that the elastic spring is configured to be connected to the inner wall surface of the housing.

The hydraulic tester of the present invention exhibits an effect of improving test reliability because the hydraulic test operation for the pipe pipe bent into a U-shape can be more easily performed.

In particular, it shows the advantage of improving the resistance efficiency by adding an elastic restoring function to the resistance generating means configured in the water supply unit.

1 is a front configuration diagram showing a hydraulic tester according to an embodiment of the present invention.
Figure 2 is a plan view showing a hydraulic pressure tester according to the present invention.
Figure 3 is a side view showing a second fixing unit of the hydraulic tester according to the present invention.
Figure 4 is a block diagram showing the water supply unit of the hydraulic tester according to the present invention.
Figure 5 is a cross-sectional view showing the resistance generating means of the water supply unit of the hydraulic tester according to the present invention.
6 to 12 is a reference diagram for explaining the operation of the hydraulic tester according to the present invention.
13 is a cross-sectional structure of a resistance generating means according to another embodiment of the present invention.
14 is an enlarged cross-sectional view of a void material in another embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, looking at the configuration of the hydraulic pressure tester according to an embodiment of the present invention through FIGS. 1 to 5 as follows.

The hydraulic tester in this embodiment is provided to be spaced apart from each other in the support frame (A) and the support frame (A) in the lateral direction, the first and second fixing units respectively coupled to both ends of the pipe 1 (B,C) and high-pressure water into the inside of the piping pipe (1) connected to the first and second fixing units (B,C) and fixed to the first and second fixing units (B,C) It consists of a water supply unit (D) for supplying.

At this time, the support frame (A) is configured to assemble a metal bar with high strength and extend in the lateral direction. The right upper surface is provided with left and right guide rails (11) extending in the left and right directions, and the left upper surface in the front and rear directions. An extended front-rear guide rail 12 is provided.

The first and second fixing units (B, C) are first and second supports 20 and 50, which are slidably coupled to the left and right guide rails 11 and the front and rear guide rails 12, respectively. The first and second fixing mechanisms 30 and 60, which are provided on the first and second supports 20 and 50 and whose ends of the pipe 1 are fixed, and of the first and second fixing mechanisms 30 and 60, It is provided so as to face forward at the rear and is connected to the ends of the piping pipes 1 fixed to the first and second fixing mechanisms 30 and 60 by being moved back and forth by the front and rear driving means 42 and 72, respectively. And second connection tabs 40 and 70.

The first support 20 is provided with a support wheel 21 that is raised on the upper surface of the guide rail 11 in the left and right directions on the lower side, and the second support 50 is placed on the upper surface of the guide rail 12 in the front-rear direction. The supporting wheel 51 is provided on the lower side.

The first and second fixing mechanisms 30 and 60 are fixed blocks 31 and 61 fixed to the first and second supports 20 and 50, and fixed blocks on one side of the fixed blocks 31 and 61 ( 31,61) is slidably coupled to the pressing blocks (32,62), one end is rotatably coupled to the brackets (22,52) provided on the first and second supports (20,50) and the middle part is pressed It consists of a rotating arm (33,63) connected to the blocks (32,62) and a cylinder mechanism (34,64) connected to the other end of the rotating arm (33,63) to rotate the rotating arm (33,63) .

The fixing block (31,61) and the pressing block (32,62) is composed of a square metal block shape, and is arranged to be spaced apart from each other, the end of the pipe pipe (1) is fixed to the adjacent surface is inserted The grooves 35 and 65 are formed to open in front and rear surfaces.

The rotating arms (33,63) are arranged to extend in the vertical direction, the lower end is rotatably coupled to the brackets (22,52) in the left and right directions.

The cylinder mechanism (34,64) uses an air cylinder with one end connected to the first and second supports (20,50) and the other end connected to the pivot arms (33,63).

At this time, the front of the first and second support (20,50) to the front and the lower side of the fixing block (31,61) and the pressing block (32,62) provided in the first and second fixing mechanism (30,60). Guide rollers 23 and 53 are provided to be positioned.

The first and second connecting tabs 40 and 70 are formed in a single pipe shape extending in the front-rear direction and having a rear end closed, and the front ends of the pipe 1 are tightly inserted and fixed. ) Is formed.

The front and rear vibration driving means (42,72) is connected to the rear of the first and second connecting tabs (40,70) to move the first and second connecting cylinders (40,70) back and forth according to the expansion and contraction. To use.

The water supply unit (D) includes a water storage tank (81) in which water is stored, a water supply pipe (82) connecting the water storage tank (81) and a first connection tab (40), and an intermediate portion of the water supply pipe (82). Connected pressurized pump (83), pressure measuring means (88) connected to the water supply pipe (82) to measure the pressure inside the water supply pipe (82), a second connection tab (70) and a drain pipe connecting the water storage tank (81) (84), the opening/closing valve (85) connected to the middle of the drain pipe (84), the resistance generating means (87) provided in the middle of the drain pipe (84), and the air supply means connected to the middle of the water supply pipe (82) It consists of (86).

The pressurized pump 83 is configured to suck the water stored in the reservoir tank 81 and pressurize it with high pressure to supply it to the first connection tab 40.

The pressure measuring means 88 uses a hydraulic pressure gauge provided between the pressure pump 83 and the first connection tab 40.

The air supply means (86) is composed of an air compressor (86b) connected to an intermediate portion of the water supply pipe (82) through an air supply pipe (86a), and a control valve (86c) connected to an intermediate portion of the water supply pipe (82).

At this time, the supply pipe 86a is connected between the pressure pump 83 and the first connection tab 40.

In addition, a check valve 82a that is opened to the air supply means 86 group is provided in the middle portion of the portion where the pressure pump 83 and the air supply pipe 86a are connected in the water supply pipe 82, and the air supply means 86 is provided. It is configured so that the air supplied by it is not backflowed toward the pressure pump (83).

In particular, the resistance generating means (87) in the present invention, as shown in Figure 5, the water supply port (87b) and the drain port (87c) connected to the middle of the drain pipe (84) and the housing (87a) formed on the circumferential surface , Consisting of a filter member (87d) in the form of a wire mesh or a perforated network provided to block between the water supply port (87b) and the drain port (87c), the water discharged through the drain pipe (84) filter member (87d) It was constructed so that proper fluid resistance could be applied while passing through.

At this time, the elastic spring (87e) on both sides is configured to connect with the inner wall surface of the housing (87a) to improve the resilience while preventing the sudden flow by elastically supporting the flow of the filter network (87d) according to the resistance with the fluid generated.

On the other hand, the resistance generating means 87 is provided to be positioned on one side of the second support 30 compared to the second fixing mechanism 60 on the upper side.

A method for testing whether a leak occurs in the pipe pipe 1 bent in a U-shape using the hydraulic tester configured as described above will be described below.

First, as shown in FIGS. 7 to 9, both ends of the pipe 1 are fixed to the first and second fixing mechanisms 30 and 60, and as shown in FIG. 10, front and rear vibration driving means 42 When advancing the first and second connecting tabs 40 and 70 using,, 72, the first and second connecting tabs 40 and 70 are firmly fixed to both ends of the pipe 1, FIG. 11 As shown in the first and second connecting tabs (40,70) are interconnected by a pipe pipe (1).

Then, when the pressure pump 83 is operated as shown in FIG. 11, the water stored in the water storage tank 81 is supplied to the pipe 1 through the water supply pipe 82 and the first connection tab 40.

Then, after all the air inside the piping pipe 1 and the drain pipe 84 is discharged by the water supplied to the inside of the piping pipe, and closing the on-off valve 85, the water pressurized by the pressure pump 83 is drain pipe It is not discharged to (84), the air pressure inside the water supply pipe (82), the pipe (1) and the drain pipe (84) is raised.

Therefore, the operator can test whether the leak occurs in the pipe 1 by checking the pressure measuring means 88 and confirming the degree of increase in the pressure inside the water supply pipe 82.

And after the test of the piping pipe is completed, as shown in Fig. 12, opening the on-off valve 85, opening the control valve 86c of the air supply means 86, is supplied by the air compressor (86b) High-pressure air is supplied to the water supply pipe 82 and the pipe pipe 1 and the drain pipe 84 through the supply pipe 86a, and is filled in the water pipe 82, the pipe pipe 1, and the drain pipe 84. The water is pushed out, and the pushed water is circulated to the water storage tank 81.

And, as described above, when the water supply pipe 82 and the water inside the piping pipe 1 and the piping pipe 1 are discharged, the control valve 86c is closed, and then the first and second fixing mechanisms 30 and 60 are closed. The piping pipe 1 is repeatedly removed by fixing the ends of the new piping pipes 1 to the first and second fixing mechanisms 30 and 60, and the above-described process is repeated. The leak test of (1) can be carried out.

The hydraulic tester configured as described above is provided to be spaced apart from each other in the support frame (A) and the support frame (A), and the first and second fixing units (B, C) respectively coupled to both ends of the pipe 1 And, a water supply unit (D) connected to the first and second fixing units (B, C) and supplying high-pressure water to the inside of the piping pipe (1) fixed to the first and second fixing units (B, C) ), the first and second fixing units (B, C) are the first and second supports (20, 50) and the first and second supports (20, 50) provided in the support frame (A). The first and second fixing mechanisms 30 and 60 to which the ends of the piping pipe 1 are fixed are provided to face the front of the first and second fixing mechanisms 30 and 60. First and second connecting tabs 40 and 70 respectively connected to the ends of the pipe 1 that are moved back and forth by the means 42 and 72 and fixed to the first and second fixing mechanisms 30 and 60, respectively. The water supply unit D comprises a water supply pipe 82 connected to the first connection tab 40, a pressurized pump 83 connected to the water supply pipe 82, and a drain pipe connected to the second connection tab 70 ( 84) and the opening/closing valve 85 connected to the drain pipe 84, both ends of the pipe 1 are fixed to the first and second fixing units B and C, and both ends of the pipe 1 In the state where the first and second connection tabs 40 and 70 are tightly connected to each other, the high pressure water is supplied to the inside of the pipe 1 through the first connection tab 40 to leak water from the pipe 1 Can test

Therefore, it is not only very easy to test the leakage of the pipe 1, but also as the water is supplied to one side of the pipe 1, the air inside the pipe 1 is pushed by the water and the pipe 1 ) Is discharged to the other side, there is an advantage that can effectively discharge the air inside the pipe (1).

In addition, the support frame (A) is provided with a left and right guide rails (11) extending in the left and right directions, and a front and rear guide rails (12) extending in the front and rear directions, the first and second fixing units (B, C) ) Is slidably coupled to the left and right guide rails 11 and the front and rear guide rails 12, respectively, to slide the first fixing unit B in the left and right directions, or the second fixing unit C to the front and rear directions. By sliding to, the left and right and front and rear direction gaps of the first and second fixing units B and C can be adjusted to match the gaps at both ends of the pipe 1.

That is, the pipe pipe 1 is bent according to the use, the lengths of both ends are different from each other, or the gaps at both ends are different.

At this time, the first and second fixing units (B, C) can be adjusted to the left and right and front-to-back spacing so as to correspond to the distance or length of the both ends of the pipe pipe (1), various types of pipe pipes bent in various forms (1) has the advantage of being able to test for leaks.

In addition, the first and second fixing mechanisms 30 and 60 are fixed blocks 31 and 61 fixed to the first and second supports 20 and 50, and fixed blocks on one side of the fixed blocks 31 and 61. Pressing blocks (32, 62) slidably provided toward (31, 61) and one end are rotatably coupled to brackets (22, 52) provided on the first and second supports (20, 50) and the middle part It consists of a rotating arm (33,63) connected to the pressing blocks (32,62) and a cylinder mechanism (34,64) connected to the other end of the rotating arm (33,63) to rotate the rotating arm (33,63) In the adjacent surfaces of the fixing blocks 31 and 61 and the pressing blocks 32 and 62, the fixing grooves 35 and 65, into which the ends of the pipe 1 are inserted, are formed to open to the front and rear surfaces. 33,63) the function of the lever, the cylinder mechanism (34,64) the force of expansion and contraction is amplified and transmitted to the pressure block (32,62), and accordingly the pipe pipe inserted into the fixing groove (35,65) It is possible to strongly press and fix both ends of (1).

Therefore, even if the cylinder mechanism (34,64) using an air cylinder, there is an advantage that can be securely fixed to the end of the piping pipe (1).

That is, in a general case, a hydraulic cylinder is used where a strong force is required, and such a hydraulic cylinder may cause contamination due to oil leakage.

However, this application has the advantage of not having to use a hydraulic cylinder by firmly fixing the end portion of the pipe 1 using an air cylinder.

In addition, the drain pipe 84 is connected to the second support 50, the resistance generating means 87 provided to be positioned above the second fixing mechanism, when supplying water to the interior of the pipe 1, the pipe There is an advantage that the air inside the pipe 1 can be discharged to the outside more effectively.

That is, the pressurized pump 83 can pressurize the water supplied to the piping pipe 1 at a very high pressure, while the flow rate of the supplied water is low per hour.

Therefore, when water is supplied to the inside of the pipe 1 using the pressure pump 83 without using the resistance generating means 87, the water simply flows along the inside of the pipe 1, thereby There is a problem in that it is difficult to effectively discharge the air inside the pipe 1 to the outside.

However, in the case of this embodiment, the drain pipe 84 is provided with a resistance generating means 87 for generating a fluid resistance, because the resistance is generated when the water passes through the filter member 87d of the resistance generating means 87, The water inside the piping pipe 1 is filled with a constant pressure inside the piping pipe 1 in a state where the opening/closing valve 85 is not closed, so that the air inside the piping pipe 1 is effectively caused by the water filled in the piping pipe 1. There is an advantage that can be pushed out and discharged.

In particular, the filter member 87d is able to maximize the resistance generation effect by preventing rapid flow in the left and right directions as well as rapid buffer support by providing elastic support by the elastic spring 87e from the left and right sides.

On the other hand, Figure 13 shows the configuration of the resistance generating means 87 according to another embodiment of the present invention, the filter network (87d) under the spherical weight (87f) is a housing (87a) by a wire (87g) Supported at a constant height with the bottom surface, the housing 87a is provided with a contact brush 87h in the form of a fine hair at a height capable of making contact with the weight body 87f, and the contact brush 87h is at the center. The height (h) gradually increases as it goes to both sides.

In addition, the filter network (87d) is provided with a void material (87i) for filling the inside to form a void, the void material (87i) is excellent in the impurity filtration function and it is preferred that the far-infrared emission of gravel type pulverite is used .

When such a configuration is achieved, when the flow of the filter network 87d due to the fluid resistance occurs, the weight body 87f vibrates together, so that the flow can be rapidly reduced, and at this time, the contact with the contact brush 87h is made simultaneously. It is possible to maximize the vibration reduction effect.

In particular, the contact brush (87h) is to prevent the rapid flow of the left and right of the filter network (87d) by forming a form in which the height (h) is gradually increased so that the frictional force gradually increases toward both sides.

In addition, since the pulverized stone is provided with a void material 87i in the filter network, the resistance generation efficiency is maximized during the passage of the fluid, and the adsorption filtration of foreign substances contained in the passage fluid is achieved.

In addition, Figure 14 shows the configuration of another embodiment of the present invention, the void material (87i) is a silicone hollow material is used for the insulation and weight reduction, the inner space of the silicon hollow body is paraffin oil (P ) Is filled to a certain level.

When such a configuration is achieved, since the silicon hollow body is used as the void material 87i filled in the filter network 87d, resistance generation efficiency of the filter network 87d according to weight reduction can be improved.

In particular, the silicone hollow body has a certain elasticity, so that the fluid flow can be smoothly performed, and since the paraffin oil (P) is filled therein, the durability of the void material 87i is improved and deformation or breakage is prevented. It shows the possible benefits.

In addition, although the specific embodiment of the present invention has been described and illustrated above, it is obvious that the hydraulic tester structure of the present invention can be implemented by various modifications by those skilled in the art.

However, such modified embodiments should not be individually understood from the technical spirit or scope of the present invention, and such modified embodiments should be included in the attached utility model registration claims of the present invention.

20: first support 30; First fixing mechanism
40: first connecting tab 50: second support
60: second fixing mechanism 70: second connecting tab
87: resistance generating means 87a: housing
87b: water inlet 87c: drain
87d: filter net 87e: elastic spring
A: Support frame B: First fixing unit
C: Second fixing unit D: Water supply unit

Claims (5)

First and second fixing units (B, C) which are provided so as to be spaced apart from each other on both sides of the horizontally arranged support frame (A) and are coupled to both ends of the U-shaped bent pipe 1, A water supply unit (D) connected to the first and second fixing units (B, C) and supplying high-pressure water to the inside of the piping pipe (1) fixed to the first and second fixing units (B, C) In the hydraulic tester forming a configuration comprising a),
The first and second fixing units B and C are provided on the first and second supports 20 and 50 provided on the support frame A, and on the first and second supports 20 and 50. The first and second fixing mechanisms 30 and 60 to which the ends of the piping pipe 1 are fixed, and the front and rear exits are provided to face the front of the first and second fixing mechanisms 30 and 60. First and second connecting tabs 40 and 70 respectively connected to the ends of the pipes 1 fixed to the first and second fixing mechanisms 30 and 60 by being moved back and forth by the means 42 and 72, respectively. );
The water supply unit (D) includes a water supply pipe (82) connected to the first connection tab (40), a pressurized pump (83) connected to the water supply pipe (82), and a drain pipe (84) connected to the second connection tab (70). ), and an opening/closing valve 85 connected to the drain pipe 84;
The drain pipe 84 is configured to be connected to a resistance generating means 87 to apply fluid resistance to the discharged water, and the resistance generating means 87 is a filter network 87d through which discharge water passes through the housing 87a. ), and elastic springs (87e) are connected to the inner wall surface of the housing (87a) on both sides to elastically support the flow of the filter network (87d),
A hydraulic tester, characterized in that a spherical weight (87f) is supported by a wire (87g) at a certain height with the bottom surface of the housing (87a) under the filter network (87d) configured in the resistance generating means (87). delete The method according to claim 1,
On the bottom surface of the housing 87a, a contact brush 87h is provided at a height capable of making contact with the weight body 87f, and the contact brush 87h gradually increases in height from the center toward both sides. Hydrostatic tester, characterized in that to form a structure. The method according to claim 1 or claim 3,
The filter network (87d) is provided with a pore material (87i) in the form of gravel to fill the inside to form a void, the void material (87i) is a hydraulic pressure tester, characterized in that pulverized stone is used. The method according to claim 1 or claim 3,
The filter network (87d) is provided with a void material (87i) for filling the inside to form a void, the void material (87i) is a silicone hollow material of elastic silicone material is used for heat insulation and weight reduction, the silicon hollow body Hydrostatic tester, characterized in that the paraffin oil (P) is filled to a certain water level in the inner closed space.

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